Appendage mounted device carrier

ABSTRACT

The present disclosure generally relates to device carriers configured to be mounted to a limb or appendage of a user. In various configurations, the device carriers disclosed herein are configured to be mounted to an arm of a user to provide convenient access to an electronic device. In various embodiments, the disclosed apparatus may include a mechanism for mounting the device to the user&#39;s limb and a supplemental fastening mechanism. In some configurations the mechanism for mounting the apparatus to the user&#39;s limb includes two or more elastic loops having differing diameters. In various embodiments the supplemental fastening mechanism includes a wrapping portion configured to wrap around the user&#39;s limb, which may further include a retaining mechanism such as hook-and-loop fabric configured to interface with hook-and-loop fabric on the elastic loops to secure the apparatus to a user in a wrapped state.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims the benefit of, and priority to, U.S. Provisional Application No. 63/166,471 filed on Mar. 26, 2021, which is incorporated by reference herein in its entirety.

BACKGROUND Field

The present disclosure generally relates to device carriers configured to be mounted on a user's body.

Description of Certain Related Art

Hand-held electronic and smart devices have incredible utility and provide significant functionality to assist with a wide variety of activities. For instance, it can be advantageous to access a user's smart device during physical activity since these smart devices can be loaded with maps, GPS functionality, heartrate trackers, other vital monitors, music, entertainment, and the like which can enhance and provide additional functionality to a user engaged in an activity such as running, jogging, bicycling, swimming, playing sports, or the like. However, it can be difficult or impossible to access a user's smart device when the user's hands are otherwise occupied by the activity or where a user's attire provides little room to store a user's smart device or other items.

For instance, sports attire and other active wear are often manufactured without pockets or with minimal small pockets because during physical activity it is disadvantageous to have numerous articles contained in one's pockets which can bounce around and cause discomfort or injury. Even when sports attire is manufactured to include pockets, such pockets do not provide convenient use, access, or viewing of the device contained therein, and further do not enable a user to access the device without removing the device from the pocket.

Nevertheless, it would be advantageous to be able to store and access a user's smart device, along with a user's other personal belongings, even when a user is engaged in an activity where it would be otherwise inconvenient or impossible to store or to access the device and other belongings, or to access the device therein without removal.

SUMMARY

The present disclosure generally relates to appendage mounted device carriers. In various configurations, the appendage mounted device carriers disclosed herein provide convenient access to a user's smart or electronic device and other personal belongings.

In some embodiments, the present disclosure relates to a device carrier configured to be mounted to an appendage of a user, the device carrier comprising: a first pocket having an entrance disposed on the anterior surface of the device carrier; and a second pocket having an entrance disposed on the posterior surface of the device carrier. The device carrier may include an access panel disposed on the anterior surface of the device carrier. The access panel may include a transparent covering having a thickness ranging from about 1 mil to about 30 mils. The access panel may include a transparent covering having a thickness ranging from about 1 mil to about 30 mils.

In some configurations, the second pocket is configured to wrap at least partially around the appendage to which the device carrier is mounted. Likewise, in various configurations the first pocket entrance is pressed against the user and occluded by the second pocket when the device carrier is mounted to a user. The device can be configured to be mounted to the forearm of a user such that the second pocket entrance is oriented substantially vertically when the user assumes a running posture with the user's forearm substantially parallel to the ground.

In some embodiments, the present disclosure relates to a device carrier configured to be mounted to an appendage of a user, the device carrier comprising: a first mounting mechanism comprising at least one resilient band configured to wrap around an appendage of a user; and a second mounting mechanism configured to wrap around both the first mounting mechanism and the user's appendage. In some embodiments, the first mounting mechanism comprises a first and a second resilient band. The first resilient band may be shorter than the second resilient band. In some embodiments the first resilient band forms a first mounting loop and the second resilient band forms a second mounting loop. Likewise, the first mounting loop may have a smaller diameter than the second mounting loop . In some configurations the first and second resilient bands are joined by a mount side retaining mechanism. In some embodiments the mount side retaining mechanism includes a section of hook and loop fabric spanning between the first and second resilient bands. In the same or different embodiment, the second mounting mechanism configured to wrap around both the first mounting mechanism and the user's appendage further comprises a pocket. In some configurations the pocket entrance is disposed on the anterior of the device.

In some embodiments the mounting mechanism further comprises a wrap side retaining mechanism. the wrap side retaining mechanism may include a section of hook and loop fabric. In some configurations, the wrap side retaining mechanism is configured to interface with a section of hook and loop fabric affixed to the first mounting mechanism comprising the at least one resilient band.

Further disclosed herein is a device carrier configured to be mounted to the forearm of a user, the device carrier comprising: a first pocket having an entrance disposed on the anterior surface of the device carrier; a second pocket having an entrance disposed on the posterior surface of the device carrier; a first mounting mechanism comprising at least two resilient bands configured to loop around an appendage of a user; wherein at least one of the at least two loops has a diameter shorter than at least one other loop; wherein the first mounting mechanism further includes a mount side retaining mechanism; a second mounting mechanism configured to wrap around the first mounting mechanism and the user's appendage; wherein the second mounting mechanism further includes a wrap side retaining mechanism configured to interface with the mount side retaining mechanism to secure the device in a wrapped state around the appendage of the user; and wherein the first pocket entrance is pressed against the user's appendage and occluded by the second pocket when the device is secured to the user in a wrapped state. In some configurations the second pocket comprises a resilient material that constrains the content within the pocket when the device is mounted to the user in a wrapped state.

BRIEF DESCRIPTION OF DRAWINGS

Various embodiments are depicted in the accompanying drawings for illustrative purposes and should in no way be interpreted as limiting the scope of the disclosure. Various features of different disclosed embodiments can be combined to form additional embodiments, which are part of this disclosure.

FIG. 1A depicts a schematic view of the anterior of an exemplary embodiment of an appendage mounted device carrier prepared in accordance with the present disclosure.

FIG. 1B depicts a schematic view of the posterior of an exemplary embodiment of an appendage mounted device carrier prepared in accordance with the present disclosure.

FIG. 1C depicts a schematic view of the anterior of an exemplary embodiment of an appendage mounted device carrier prepared in accordance with the present disclosure.

FIG. 2 depicts a lateral illustrated view of an exemplary embodiment of an appendage mounted device carrier prepared in accordance with the present disclosure.

FIG. 3 depicts an illustrated view of an embodiment of an appendage mounted device carrier mounted to a user and shown in a wrapped state in accordance with the present disclosure in accordance with the present disclosure.

FIG. 4 depicts an illustrated view of a device loaded into an embodiment of an appendage mounted device carrier mounted to a user in accordance with the present disclosure.

DETAILED DESCRIPTION INCLUDING PREFERRED EMBODIMENTS

Various systems and methods relating to appendage mounted device carriers are described below to illustrate various examples that may achieve one or more desired improvements. These examples are only illustrative and not intended in any way to restrict the general disclosure presented or the various aspects and features described herein. Furthermore, the general principles described herein may be applied to embodiments and applications other than those specifically discussed herein without departing from the spirit and scope of this disclosure. As such, this disclosure is not limited to any particular embodiment shown but is instead to be accorded the widest scope consistent with the principles and features that are disclosed or suggested.

Although certain aspects, advantages, and features are described herein, it is not necessary that any particular embodiment include or achieve any or all of those aspects, advantages, or features. Some embodiments may not achieve the advantages described herein but may achieve other advantages instead. Any structure, material, feature, or step in any embodiment can be used in place of, or in addition to, any structure, feature, or step in any other embodiment, or omitted. This disclosure contemplates all combinations of features from the various disclosed embodiments. No feature, structure, or step is essential or indispensable.

Overview

Attempts have been made to provide convenient access to a user's smart device when the user is engaged in an activity. Existing device carriers can typically be sorted into one of two categories: sleeve-carriers and strap-mounted-pockets. However, each approach has significant drawbacks. For example, phone carrier sleeves rely on the elasticity or resilience of the sleeve's material to constrict around a user's limb and retain the apparatus to their body through tension. This approach has several disadvantages. For instance, sleeves are designed to constrain around a pre-specified circumference, and since sleeves rely on tension fitting, sleeves can only hold specific items of pre-specified sizes. Otherwise, the sleeve will be too tight or too loose based on how full the pockets are, since there is no way to adjust the tightness of a sleeve to account for a larger volume of contents being stored within the sleeve's pockets. Accordingly, sleeves are typically limited in the size of phones they can be configured to receive, and strictly limit the volume of items that can be loaded into the sleeve without deforming the sleeve substantially from its original size and preventing the sleeve from fitting properly.

Manufacturers have made attempts to cure this deficiency by implementing buckles and straps into the designs that cinch around a user's appendage to mount the carrier securely to the user regardless of the size of the user or the contents loaded into the apparatus. Although such designs are typically not compatible with sleeve designs since they rely on an entirely different mechanism of fastening, buckles and straps are adjustable and therefore can accommodate differing sizes of users and differing volumes of contents within the pockets.

Nevertheless, introducing buckles and straps into the design leads to new problems. For example, straps and buckles greatly increase manufacturing complexity and the cost to produce the apparatus. Further, the adjustable straps must either be manufactured at different sizes, or else yield loose, dangling ends that can become caught on obstacles during physical activity—or require yet further mechanisms to retain the dangling straps which again further increases manufacturing complexity. Still further, the buckles and straps used to mount the apparatus to the user have a smaller surface area of contact with the user than a sleeve apparatus does. Since the straps attach to the user with small, localized attachment points having significantly less surface area than a sleeve style apparatus, the straps introduce individual points of pinching that can dig into the user's skin uncomfortably especially when multiple items are loaded into the pockets.

Appendage Mounted Device Carriers

In some embodiments, the present disclosure relates to appendage mounted device carriers which overcome the disadvantages discussed above. In some embodiments, the appendage mounted carrying apparatus includes: a mounting mechanism to mount the apparatus to a user; a wrapping mechanism to wrap the apparatus around a user; a retaining mechanism to secure the apparatus in a wrapped state; a first pocket having an access panel to provide convenient access to a user's device; and a second pocket providing storage for a user's belongings.

FIG. 1A schematically illustrates an embodiment of an appendage mounted device carrier prepared in accordance with the present disclosure and configured to be mounted to an appendage of a user. FIG. 1A depicts a view of the anterior surface of the apparatus which can be oriented towards the environment when the apparatus is mounted to a user. The apparatus of FIG. 1A is configured to be mounted to the arm of a user, such as on the forearm of a user which can provide some advantageous functionality. However, it will be appreciated that the apparatus disclosed herein may be mounted to any limb or appendage of a user, including a user's arms, legs, hands, feet, fingers, and the like without deviating from the scope of the present disclosure. Likewise, FIG. 1B schematically illustrates an embodiment of an appendage mounted device carrier prepared in accordance with the present disclosure and configured to be mounted to an appendage of a user. FIG. 1B depicts a view of the posterior surface of the apparatus, at least a portion of which may contact the user's limb or appendage when the apparatus is mounted to a user. FIG. 1C depicts an embodiment of an appendage mounted device carrier including curved edges on the wrapping portion of the device.

As shown in FIGS. 1A-C, and further described below, the appendage mounted device carrier 100 includes a first and second mounting strap 101, 102. The apparatus further includes a mount-side retaining mechanism 103, a first pocket 104, a wrapping portion 107 and a wrap-side retaining mechanism 110 disposed on the posterior surface and therefore depicted with broken lines in FIGS. 1A and 1C, and with solid lines in FIG. 1B. The embodiment depicted in FIGS. 1A-C includes a second pocket 108 implemented within the wrapping portion 107.

FIG. 2 presents an illustrated lateral view of an appendage mounted device carrier 100 prepared in accordance with the present disclosure. FIG. 2 depicts the first and second mounting straps 101, 102 along with the first and second mounting loops 120, 121 implemented thereon. FIG. 2 further depicts the first pocket 104 along with the first pocket entrance 106 disposed on the posterior surface of the apparatus, opposite the second pocket 108 and the second pocket entrance 109 implemented on the anterior surface along the wrapping portion 107.

FIG. 3 presents an illustrated view of an appendage mounted device carrier 100 mounted to a user's forearm 131 in a wrapped state in accordance with the present disclosure. In this configuration, the access panel 105 provides convenient access to the user's device 132 without removing the device 132 from the first pocket 104. The entrance to the first pocket is disposed adjacent to the user's forearm 131 within the apparatus 100 and is not visible. The second pocket entrance 109 is visible as implemented along the wrapping portion 107. As shown in FIG. 3, in various embodiments the entrance to the second pocket 109 can be configured to be oriented upwards, against the force of gravity when the user assumes a running posture such that the user's forearm 131 is substantially parallel to the ground. Further, the apparatus can be held in a wrapped configuration through an interface between a mount-side retaining mechanism and a wrap-side retaining mechanism as will be discussed in more detail below.

FIG. 4 presents an illustrated view of a device 132 loaded into appendage mounted device carrier 100 mounted to a user's forearm 131 in an unwrapped state in accordance with the present disclosure. In this configuration, the first and second mounting loops 120, 121 implemented along the first and second mounting straps 101, 102 are clearly visible. Also depicted in FIG. 4 is the first pocket 104 containing a user's device 132 along with the first pocket entrance 106. In this manner, it can be seen that the wrapping portion 107 folds over the first pocket entrance 106 to occlude the pocket entrance and secure the device therein. The wrap-side retaining mechanism 110 may interface with a mount-side retaining mechanism 103 disposed along the first and second mounting straps 101, 102 to secure the device in a wrapped state.

Mounting Mechanism

With reference to FIG. 1A, first and second mounting straps 101, 102 are configured to mount the apparatus 100 to an appendage of a user. In some configurations, the mounting straps are affixed to the apparatus 100 to form first and second mounting loops 120, 121 through which a user may insert a limb or appendage to mount the apparatus to the user. FIG. 2 presents a lateral view of the device where the first and second mounting loops 120, 121 are clearly depicted as implemented along the first and second mounting straps 101, 102.

The mounting loops 120, 121 can be formed in the mounting straps 101, 102 in several manners. In some embodiments the mounting straps 101, 102 comprise straps of a resilient material which are used to create mounting loops 120, 121. In the illustrated embodiment, a first end of the first mounting strap 101 is affixed to the first pocket 104 at first strap attachment point 116. To form first mounting loop 120, the midportion of the first mounting strap 101 extends from the first strap attachment point 116 while a second end of the first mounting strap 101 circles back and is affixed to the first mounting strap 101 itself at or near attachment point 116, thereby forming first mounting loop 120 in the midportion of the first mounting strap 101.

Likewise, the second mounting strap 102 is affixed in a similar manner to form the second mounting loop 121. Specifically, the second mounting strap 102 can be affixed to the second attachment point 117. The second mounting loop 121 is formed in the midportion of the second mounting strap 102 by affixing a second end of the second mounting strap 102 to itself at or near second attachment point 117.

In some embodiments, the mounting loops 120, 121 are formed by attaching the second end of the mounting straps 101, 102 near strap attachment points 116, 117, rather than at attachment points 116, 117. For example, as depicted in FIG. 1A, the second end of each mounting strap 101, 102 is respectively affixed at the second end attachment points 118, 119 disposed near strap attachment points 116, 117. Specifically, the second end attachment points 118, 119 may be disposed along the midportion of each strap about 1.25″ away from strap attachment points 116, 117. In this configuration, the first end of each mounting strap 101, 102 can be attached to strap attachment points 116, 117 while the second end of each mounting strap 101, 102 can be affixed to itself at the second end attachment points 118, 119 about 1.25″ away from first strap attachment points 116, 117.

In this configuration, hinge portions 112, 113 are formed along each mounting strap 101, 102 respectively. In various advantageous configurations, hinge portions 112, 113 may act as a hinge while being worn on the arm and facilitates loading contents into the first pocket 104 while the apparatus is mounted on a user. For instance, as shown in FIG. 4, the wrapping portion 107 can be lifted to pull the first pocket 104 away from the user's forearm 131 since the hinge portions 112, 113 allow the device to lift away from the mounting loops 120, 121 to provide convenient access to the first pocket 104.

In various configurations, the second end attachment points 118, 119 can be closer or further away from the strap attachment points 116, 117 than 1.25″ to alter the size of the hinge portions 112, 113. For example, in various configurations the second end attachment points 118, 119 can be disposed about 0.5″ away from strap attachment points 116, 117. In other configurations, the distance may be about 1″, 1.5″, 2″, 2.5″, 3″, 3.5″, 4″, or any value therein.

FIG. 2 depicts an illustrated lateral view of an appendage mounted device carrier 100 prepared in accordance with the present disclosure in which the second mounting strap 102, the second mounting strap's first attachment point 117, the second mounting strap's second attachment point 119, the second mounting loop 121, and the second hinge 113 portions are clearly visible, along with many of the same features as implemented along the first mounting strap 101.

The apparatus depicted in FIG. 1A includes two mounting straps 101, 102. As shown, mounting strap 101 is disposed on the apparatus 100 distal to mounting strap 102 when mounted on a user. However, it will be appreciated by those of skill in the art that the apparatus 100 may be prepared with fewer than two mounting straps, or with more than two mounting straps. For example, in various embodiments, only one mounting strap is implemented. Likewise, in various advantageous configurations, multiple mounting straps are implemented, such as at least three mounting straps, at least four mounting straps, at least five mounting straps, or a greater number of mounting straps may be implemented without deviating from the scope of the present disclosure.

The first ends of the mounting straps 101, 102 can be affixed to the device in multiple ways. In various configurations a first end of the mounting straps may be affixed to a lateral surface of the first pocket 104, such as by stitching, gluing, or other means of joining known to those skilled in the art. In the same or different embodiments, the first end of the mounting strap is affixed between different layers of the first pocket 104, such as between an anterior and posterior layer of the first pocket 104. FIG. 2 depicts an illustrated side view of an exemplary embodiment of the apparatus 100 disclosed herein, where the first and second mounting straps 101, 102 are joined between the anterior and posterior layers respectively comprising the anterior 114 and posterior 126 surfaces of the first pocket 104.

Although in the illustrated embodiment, mounting straps 101, 102 are affixed to the apparatus 100 at the first pocket 104, it will be appreciated that in other embodiments, one or more of mounting straps 101, 102 may be formed contiguously with at least one or more portions of the apparatus. Likewise, it will be appreciated that the arrangement of the various components can be altered in different implementations. For example, in some configurations, the mounting straps 101, 102 may be affixed to the second pocket 108, to the wrapping portion 107, or to any other portion of the apparatus 100.

The mounting straps 101, 102 can be configured to mount the apparatus to a user's body in a variety of locations. For instance, in some configurations the apparatus can be mounted to a user's forearm. Commonly, the proximal portion of an individual's limb has a greater circumference than the distal portion of an individual's limb. Accordingly, to facilitate mounting the device to a user's limb, such as a user's forearm, the first mounting strap 101 may form a first mounting loop 120 having a smaller circumference than the second mounting loop 121 implemented along the second mounting strap 102 to accommodate the differing circumference of the proximal and distal portions of a user's limb. However, it will be appreciated that the first mounting loop 120 may have an equal or greater circumference than the second mounting loop 121 in other configurations.

The circumference of the mounting loops 120, 121 may be altered by a variety of factors, such as including hinge portions 112, 113. In the embodiment depicted in FIG. 1A, the first mounting strap 101 has a length of about 7.5″, while the second mounting strap 102 has a length of about 9″. As discussed above, the first and second mounting straps 101, 102 can form mounting loops allowing a user to mount the device by inserting an appendage through the mounting loops. Accordingly, in various configurations, the first mounting strap 101 having a length of about 7.5″ can form a mounting loop 120 having a maximum circumference of about 7.5″. However, it will be appreciated that the circumference of the mounting loop may be less than 7.5″ in some configurations, due to for example, implementing one or more hinge portion 112, 113 as discussed above and illustrated in FIG. 1A. The table below provides some examples showing how implementation of various hinge lengths along mounting straps can affect the resultant mounting loop circumferences.

TABLE 1 Hinge Length 1″ 1.5″ 2″ 2.5″ 3″ Strap 1 Length   7.5″ 7.5″   7.5″ 7.5″   7.5″ Strap 2 Length 9″ 9″   9″ 9″   9″ Loop 1 Circumference   6.5″ 6″     5.5″ 5″     4.5″ Loop 2 Circumference 8″ 7.5″ 7″ 6.5″ 6″

In the embodiment illustrated in FIG. 1A, the mounting straps 101, 102 are 2″ wide. However, in some embodiments the width of the mounting straps 101, 102 may be altered. For example, in some embodiments the mounting straps 101, 102 can range from about 1″ wide to about 8″ wide, such as about 1.5″ wide, about 2″ wide, about 3″ wide, about 4″ wide, about 5″ wide, about 6″ wide, about 7″ wide, about 8″ wide, or any value therein.

In various embodiments, the mounting loop 120 formed in the first mounting strap 101 can have a greater circumference than the mounting loop 121 formed in the second mounting strap 102. In some configurations, the differing circumference is achieved by utilizing straps of differing lengths for each of mounting strap 101 and mounting strap 102 to accommodate different circumferences of the different portions of a user's limb. For example, in various configurations, the first mounting strap 101 is produced from a strap having a shorter length than the second mounting strap 102.

As depicted in FIG. 1A, the first mounting strap 101 has a shorter length than the second mounting strap 102. In the depicted embodiment, the ratio of the length of the first mounting strap 101 to the second mounting strap 102 is about 0.83. In various configurations, the ratio of the length of the first mounting strap to the second mounting strap can range from about 0.75 to about 0.9, or any value therein. For instance, in certain configurations the ratio of the length of the first mounting strap to the second mounting strap is about 0.8, about 0.82, about 0.84, about 0.86, about 0.88, or about 0.9. Various different configurations of mounting strap lengths having particularly advantageous properties for mounting the apparatus to a user's forearm are disclosed in the table below.

TABLE 2 First Mounting Strap 7.5″ 8.5″ 9.5″ 10.5″  11.5″  Length Second Mounting Strap 9″   10″   11″   12″   13″   Length Ratio Length 0.83 0.85 0.86 0.87 0.88 Sleeve Radius 19″   21″   23″   25″   27″   Inner Sleeve Length 4.5″ 5.5″ 6.5″ 7.5″ 8.5″ Outer Sleeve Length 5″   6″   7″   8″   9″  

It will be appreciated that the measurements provided in the foregoing table are approximate and that alternate embodiments are contemplated. For example, values within a range of about 25% of the foregoing are workable. Other measurements may be appropriate where the device is to be mounted elsewhere, aside from a user's forearm.

In various configurations, the mounting straps 101, 102 are made from a resilient material configured to expand under stress but return to its original shape, size, and configuration when the stress is removed. For example, in some configurations the mounting straps 101, 102 are made from elastic. In various embodiments, the mounting straps are prepared from elastic having about a 40% stretch capacity. However, in other embodiments, different materials may be employed. For instance, in some configurations the mounting straps may be prepared from a stretchable material comprising one or more of a natural fiber, animal fiber, plant fiber, textile fiber, or synthetic fiber which may include polytetrafluoroethylene (PTFE), expanded PTFE such as GORE-TEX®, leather, nylon, cotton, hemp, wool, carbon fiber, or any other material.

Advantageously, the resiliency of the mounting straps allows the apparatus to be mounted to an appendage of a user by expanding the mounting strap around the user's appendage and allowing the resilient material to return to its original shape and size to constrain around the user. Indeed, in some particularly advantageous configurations, the resiliency of the straps allows the apparatus to be secured to a user without a strict requirement for additional fastening mechanisms such as buckles, straps, clasps, or other fastening mechanisms to retain to the apparatus to the user. In this manner, the manufacturing complexity of the apparatus is significantly reduced and improved. Furthermore, the apparatus is quicker and simpler to mount and use than comparable apparatuses that require cinches and straps to keep the apparatus in place and secured to a user.

Mount-Side Retaining Mechanism

In various configurations, a mount-side retaining mechanism 103 is implemented to facilitate wrapping the apparatus 100 around a user's limb and to help secure the apparatus 100 to a user in a wrapped state. In some embodiments, the mount-side retaining mechanism 103 can be a portion of hook-and-loop fabric configured to interface with a portion of hook-and-loop fabric implemented along or near the wrapping portion 107 of the device, although other fastening mechanisms may be implemented as well, as will be discussed below.

In some configurations, the mount-side retaining mechanism 103 is affixed to one or more of the mounting straps 101, 102. For example, as shown in FIG. 1A, the mount-side retaining mechanism 103 is affixed to the anterior surface of the mounting straps 101, 102. In some embodiments, the mount-side retaining mechanism 103 is affixed to the mounting straps 101, 102 at or near strap attachment points 116, 117 and extends away from the first pocket 104 along mounting straps 101, 102 towards mounting loops 120, 121.

As shown, the mount-side retaining mechanism 103 extends from the first mounting strap 101 to the second mounting strap 102, having a width of about 5.5″ to span across the two straps. In some embodiments, the mount-side retaining mechanism 103 has a length of about 4″, extending about 4″ away from the first pocket 104 along the midportion of each of mounting strap 101, 102 towards mounting loops 120, 121. This advantageous configuration allows for the apparatus to be worn over a jacket or thicker layer of clothing while still allowing the apparatus to be securely mounted to a user. Further, the depicted length facilitates closure of the apparatus when items are loaded in the second pocket 108.

It will be appreciated by those of skill in the art that alternate dimensions may be implemented without deviating from the scope of the present disclosure. For instance, in some embodiments, the mount-side retaining mechanism 103 may have a length ranging from about 1″ to about ″, such as about 1″, about 2″, about 3″, about 4″, about 5″, about 6″, about 7 ″, about 8″, about 9″, or any value therein. Likewise, the mount-side retaining mechanism 103 may have a width ranging from about 0.5″ to about 8″, such as about 1″, about 2″, about 3″, about 4″, about 5″, about 6″, about 7″, about 8″, or any value therein. In some embodiments the mount-side retaining mechanism may be implemented along only one of mounting straps 101, 102. In some embodiments, the mount-side retaining mechanism may be affixed to: the first pocket 104; to one or more of the strap attachment points 116, 117; to the wrapping portion 107; or to any other portion of the apparatus. In various configurations, it can be advantageous to size the mount-side retaining mechanism to extend about 90% of the way towards the crest of the mounting loop that extends away from the device, as shown in FIG. 1A. However, it will be appreciated that other dimensions can be implemented as well, such as about 80%, about 85%, about 90%, about 95%, or about 100%.

The mount-side retaining mechanism 103 can be configured to interface with a wrap-side retaining mechanism 110 disposed on the wrapping portion 107 to facilitate wrapping the apparatus 100 around a user's limb and to secure the apparatus 100 in a wrapped state. A variety of mechanisms can be implemented to facilitate the interface between the mount-side retaining mechanism 103 and the wrap-side retaining mechanism 110. For example, in some embodiments, the apparatus can be secured in a wrapped state using hook-and-loop fabric. In these embodiments, the anterior surface of the mount-side retaining mechanism 103 includes hook fabric configured to interface with loop fabric affixed to, or forming, a wrap-side retaining mechanism 110 implemented on the posterior surface of the wrapping portion 107, or vice versa. In other configurations, snaps, clasps, buckles, and the like can also be implemented to secure the apparatus in a wrapped state. However, due in part to the simplicity of use and the strength of the bond capable of being formed, the use of hook-and-loop fabric yields unexpected and surprising efficacy when compared to buckles, straps, and similar closure mechanisms.

The use of hook-and-loop fabric to secure the disclosed apparatus in a wrapped state results in surprisingly improved performance when compared to traditional device holders due to the nature of hook-and-loop fabric and the resultant bond it can form. Specifically, hook-and-loop fabric efficiently and removably bonds two items together, and the strength of the bond is dependent on several factors including: the surface area of the bond, the number of hooks and loops within the surface area, and the orientation of the force applied relative to the plane of the bond. Importantly, hook-and-loop fabric most efficiently resists pulling forces that are exerted generally parallel to the plane of the fastening surface. Thus, to maximize the strength of the bond it is advantageous to ensure that pulling forces are applied generally parallel to the plane of the fastening surface. One mechanism to ensure that the pulling forces are applied generally parallel to the plane of the fastening surface is to apply the force around a bend or corner.

In various configurations, the disclosed apparatus maximizes the bond strength by orienting applied forces around a wrapped configuration such that the forces are applied generally parallel to the plane of the fastening surface. Specifically, in various advantageous configurations, wrapping portion 107 wraps around a user's arm to secure to the wrap-side retaining mechanism 110 to the mount-side retaining mechanism 103. This wrapping configuration maximizes the strength of the bond between the hook-and-loop mechanisms because expansion forces originating within the circumference of the apparatus are oriented by the wrapping configuration to be exerted generally parallel to the plane of fastening. Likewise, the weight of the contents loaded into the apparatus exert a force generally parallel to the plane of fastening because the weight of the contents can exert a downward force on the apparatus along the user's arm. This downward force can be opposed by a portion of increasing width of the user's forearm which can generate an expansion force originating within the circumference of the device. The expansion force is oriented by the wrapping configuration to be exerted generally parallel to the plane of fastening. Likewise, in various configurations when the apparatus is mounted to a user's forearm arm and the user assumes a running posture where a user's forearm is oriented generally parallel to the ground, the weight of the contents exerts a downward force which is oriented by the wrapping configuration to be exerted generally parallel to the plane of the fastening surface. Such configurations result in a surprisingly secure bond that does not require further clasping mechanisms while allowing a user to store a greater weight and volume of contents than traditional designs.

For at least the foregoing reasons, the strength of the bond between the hook-and-loop fabric as implemented in the present disclosure is surprisingly strong. This advantageous configuration allows a user to carry significantly more items in the apparatus without overcoming the fastening power of the hook-and-loop fabric if the apparatus were mounted in a different configuration and obviates the need for additional clasps and buckles which can be expensive to manufacture and cumbersome to manipulate.

In some embodiments, such as those depicted in FIGS. 1A-C, 2, and 4 a webbing portion 111 is implemented along the mounting straps 101, 102 to provide additional structural stability. For instance, in some embodiments, the mount-side retaining mechanism 103 extends contiguously from the first mounting strap 101 to the second mounting strap 102, forming a webbing portion 111 between the first mounting strap 101 and the second mounting strap 102. In other embodiments, the webbing portion 111 comprises an additional strap of material affixed to the mounting straps 101, 102 or to the mount-side retaining mechanism 103. The webbing portion may further be affixed to the apparatus 100, such as at or near strap attachment points 116, 117. For example, in some embodiments the webbing portion is affixed to the first pocket 104. Advantageously, the webbing portion 111 of the depicted configuration can provide additional structural stability to the apparatus. For example, the webbing portion 111 of the mount-side retaining mechanism 103 can prevent the first mounting strap 101 from being pried, pulled, or otherwise separated from the second mounting strap 102 or from tearing away from the apparatus 100.

First Pocket

The appendage mounted device carrier includes a first pocket 104 configured to store and provide access to a user's device. The first pocket 104 is sized to fit common devices such as cell phones, tablets, music-players, and other types of devices. The first pocket 104 is also sized to be comfortably mounted on a user, such as on a user's forearm. Accordingly, the dimensions of the first pocket may have a width of about 4.25″ and a length of about 7.5″. In other embodiments, the first pocket may have a width of about 4.25″ and a length of about 6.5″. It will be appreciated that by altering the dimensions of the pocket, the apparatus 100 can be configured to contain a variety of devices securely while fitting comfortably onto the user.

As shown in FIG. 1A, the first pocket 104 has an anterior surface 114. The anterior surface 114 is typically oriented towards the environment when mounted on a user. Accordingly, the anterior surface 114 is typically manufactured from a weather resistant, durable material such as a polymer. For example, in various configurations the anterior surface 114 is prepared from vinyl, such as marine vinyl or polyvinyl chloride (PVC). Nevertheless, it will be appreciated that other materials may be implemented as well, such as materials comprising one or more of a natural fiber, animal fiber, plant fiber, textile fiber, or synthetic fiber which may include polytetrafluoroethylene (PTFE), expanded PTFE such as GORE-TEX®, leather, nylon, cotton, hemp, wool, carbon fiber, neoprene, or any other material.

FIG. 1B depicts a view of the posterior of the apparatus 100 including the first pocket 104, having a posterior surface 126 and first pocket entrance 106. In various configurations, the posterior surface 126 is configured to rest against the user, while the anterior surface 114 is oriented towards the environment when the apparatus is mounted on a user. Accordingly, in various embodiments, the posterior surface 126 is a skin-safe fabric. A variety of skin safe fabrics may be employed, however, moisture-wicking fabrics such as neoprene are particularly advantageous due to their durability, comfort, and ability to pull moisture such as sweat or rain away from a user's skin.

In this advantageous configuration, the first pocket entrance 106 is disposed on the posterior surface of the apparatus. As such, when the apparatus is mounted on a user, the user's limb presses against the first pocket entrance 106 to keep the first pocket 104 closed. For instance, FIG. 4 depicts an embodiment of an appendage mounted device carrier mounted to a user's forearm 131 with an electronic device 132 loaded into the first pocket 104.

As shown in FIG. 4, the first pocket entrance 106 is disposed on the posterior surface of the first pocket 126. In this advantageous configuration, the user's arm 131 presses against the pocket entrance 106 and acts to retain a user's device 132 in the first pocket 104 when the apparatus 100 is mounted. Further, the wrapping portion 107 is configured to close over the first pocket entrance 106 to occlude the entrance and secure the contents therein. However, it will be appreciated that other implementations are contemplated by the present disclosure. Accordingly, in various embodiments, the first pocket entrance 106 may be disposed on another surface of the apparatus, such as the anterior surface of the apparatus. In some embodiments, a closure mechanism may be implemented along the first pocket entrance 106. For instance, in some embodiments a portion of hook-and-loop fabric or other fastening mechanism may be implemented along the perimeter of the first pocket entrance 106 to facilitate closure of the first pocket entrance 106.

The perimeter of the posterior surface 126 of the first pocket 104 is affixed to the perimeter of the anterior surface 114 of the first pocket, forming a first pocket cavity therebetween. A variety of methods may be employed to affix the anterior surface 114 of the first pocket to the posterior surface 126 of the first pocket, such as by stitching, gluing, or other means of joining known to those skilled in the art. In various embodiments, a portion of the perimeter is left unaffixed to yield a first pocket entrance 106. In the embodiment depicted in FIG. 1A, the first pocket entrance 106 is pictured with broken lines, disposed on the posterior surface of the apparatus adjacent to the wrapping portion 107.

It will be appreciated that various first pocket 104 dimensions may be implemented without deviating from the scope of the present disclosure. For instance, in some configurations the first pocket 104 has a width ranging from about 2.25″ to about 12.25″, such as about 2.25″, about 3.25″, about 4.25″, about 5.25″, about 6.25″, about 7.25″, about 8.25″, about 9.25″, about 10.2541 , about 11.25″, 12.25″ or any value therein. Likewise, the length of the first pocket 104 may range from about 4.25″ to about 13.25″, such as about 4.25″, about 5.25″, about 5.25″, about 6.25″, about 7.25″, about 8.25″, about 9.25 ″, about 10.25″, about 11.25″, about 12.25″, about 13.25″, or any value therein. In various configurations, the first pocket 104 may have a depth of about 1″, as measured from the anterior surface 114 of the first pocket 104 to the posterior surface 126. In other configurations, the first pocket 104 may have a depth ranging from about 0.5″ to about 2.5″, such as about 0.5″, about 1″, about 1.5″, about 2″, about 2.5″, or any value therein.

Access Panel

As depicted in FIG. 1A, the anterior surface 114 of the first pocket 104 further comprises an access panel 105. The access panel 105 is configured to allow a user to view, access, or otherwise manipulate the device stored in the first pocket 104, without removing the device from the first pocket 104.

In some embodiments, the access panel may have a width of about 3.25″ along with a length of about 5.5″ when incorporated with a first pocket 104 having a length of about 6.5″. In other embodiments, the access panel may have a width of about 3.25″ along with a height of about 6.5″ when incorporated with a first pocket 104 having a length of about 7.5″. Advantageously, these dimensions do not substantially reduce the structural integrity of the apparatus, and therefore, mitigate the risk that the access panel will fail and the device will fall out. Nevertheless, these dimensions provide good access to the user's device, so that the user's device may be operated without removing the user's device from the first pocket 104. However, it will be appreciated that other dimensions may be implemented as well. For example, the width of the access panel 105 may range from about 1″ to about 12″, such as about 1″, about 2″, about 3″, about 4″, about 5″, about 6″, about 7″, about 8″, about 9″, about 10″, about 11″, 12″ or any value therein while the length of the access panel 105 may range from about 1″ to about 13″, such as about 1″, about 2″, about 3″, about 4″, about 5 ″, about 6″, about 7″, about 8″, about 9″, about 10″, about 11″, 12″, about 13″ or any value therein. For example, in some embodiments the access panel may have a width of about 2.75″ and a length of about 5.5″ when incorporated with a first pocket 104 having a length of about 7.5″ and a width of about 4.25″.

In various configurations, the access panel includes an access panel cover 130. The access panel cover 130 may be affixed along its perimeter to the perimeter of the access panel 105, such as by stitching, gluing, or other means of joining known to those skilled in the art. The access panel cover 130 can be manufactured from a material that facilitates use of the device while the device is in the first pocket 104. For instance, the access panel cover 130 can be manufactured from a transparent or translucent polymer, such as clear vinyl, that allows a user to view, access or otherwise activate a screen of the device stored within the first pocket 104. Advantageously, the access panel cover 130 can have a thickness of about 1 mil to about 30 mils. For instance, in various configurations, the access panel cover 130 has a thickness of about 1 mil, 2 mils, 4 mils, 6 mils, 8 mils, 10 mils, 12 mils, 14 mils, 16 mils, 18 mils, 20 mils, 22 mils, 24 mils, 26 mils, 28 mils, 30 mils, or any value therein. As used herein, a mil refers to 1/1000^(th) of an inch. In various configurations, the access panel material is affixed to, and helps to form, the anterior surface 114 of the first pocket 104. In selected embodiments the access panel cover 130 can aid in retaining a device in the first pocket 104. In certain configurations, the access panel cover 130 can add structural integrity to the first pocket 104.

Wrapping Portion

As shown in FIG. 1A, the first pocket 104 is affixed to the wrapping portion 107 of the apparatus. For example, in the illustrated embodiment the anterior surface 114 of the first pocket 104 is affixed to the wrapping portion 107 opposite the mount-side retaining mechanism 103. However, it will be appreciated that the wrapping portion can be formed contiguously with one or more portions of the apparatus. For example, in some configurations, the wrapping portion may be contiguous with first pocket, the mounting mechanism, or any other portion of the apparatus.

As illustrated in FIG. 1A, wrapping portion 107 is disposed adjacent to the first pocket 104. However, it will be appreciated that additional or alternate configurations may be implemented. For instance, in some configurations, the wrapping portion 107 may be affixed to the mount-side retaining mechanism 103, and the first pocket 104 may be affixed to the wrapping portion 107 opposite the mount-side retaining mechanism 103. This disclosure contemplates all possible orderings and combinations of the elements disclosed herein. In various configurations, the wrapping portion 107 is configured to wrap around the circumference of a user's appendage, such as a user's arm or forearm, to secure the apparatus thereto.

In various embodiments, the wrapping portion 107 is configured to wrap around a user's limb to facilitate mounting the apparatus to a user. To facilitate wrapping around a user's limb, such as a user's arm or forearm, the wrapping portion 107 can have an overall length ranging from about 6″ to about 12″, such as about 6″, about 7″, about 8″, about 9″, about 10″, about 11″, about 12″, or any value therein.

In some embodiments, the wrapping portion 107 is configured to wrap around the forearm of a user. Commonly, the distal portion of a user's forearm has a smaller circumference than the proximal portion of a user's forearm. Accordingly, in some embodiments, the distal edge 123 of the wrapping portion 107 has a shorter length than the proximal edge 124 of the wrapping portion 107 to accommodate the differing circumferences of the different portions of a user's forearm. Various configurations of different wrap portion 107 edge lengths having particularly advantageous properties for mounting the apparatus to a user's forearm are disclosed in the table below.

TABLE 3 Distal Edge   6.5″   7.5″   8.5″   9.5″   10.5″ Proximal Edge 7″ 8″ 9″ 10″ 11″ Overall Length 7″ 8″ 9″ 10″ 11″ It will be appreciated that the measurements provided in the foregoing table are approximate and that alternate embodiments are contemplated. For example, values within a range of about 25% of the foregoing are workable. Other measurements may be appropriate where the device is to be mounted elsewhere, aside from a user's forearm. In the illustrated embodiment, the wrapping portion 107 is configured to wrap around a user's forearm without significant overhang or extra material, which obviates the need for dangling straps or adjusting buckles, helps the device fit comfortably on a user, prevents occluding the access panel, and forms a more aesthetic appearance.

In some configurations, such as the embodiment depicted in FIG. 1C, the proximal 124 and distal 123 edges of the wrapping portion 107 include at least one contour. In these configurations, the contoured edges allow the apparatus to fit more comfortably on a limb of a user and lend a more aesthetic appearance to the apparatus. For example, in the embodiment illustrated in FIG. 1C, the distal edge 123 of the wrapping portion 107 includes distal contour 128 while the proximal edge 124 includes proximal contour 129. In some embodiments the proximal contour 129 has a greater radius than the distal contour 128. In such configurations, the apparatus may fit more comfortably on the forearm of a user with a more uniform appearance like that of a sleeve. However, it will be appreciated that in some configurations the distal contour 128 may have a greater radius than the proximal contour 129; that the distal contour 128 and proximal contour 129 may have substantially identical radiuses; or that one or more of the contours may be omitted.

For example, in some embodiments the distal 123 and proximal 124 edges of the wrapping portion 107 can be straight. Implementing straight edges can make the device simpler to manufacturer but can make it more difficult to mount the device comfortably to a user. To address these concerns and to facilitate wrapping the straight edges around a substantially conical member, such as a user's forearm, the wrap portion 107 may be implemented at a slight angle as shown in FIGS. 1A and 1B. In the depicted embodiment, the free edge 133 of the wrapping portion 107 is shifted upwards about 0.25″ relative to the proximal edge of the first pocket 104 to create an angle relative to the proximal edge of the first pocket 104 and proximal edge of the wrapping portion 124. However, it will be appreciated that other embodiments may achieve the desired result as well. For example, in some embodiments the wrapping portion 107 is implemented in a similar manner, but at an angle of about 0°, about 2°, about 4°, about 6°, about 8°, about 10°, about 12°, about 14°, about 16°, about 18°, or about 20° relative to the first pocket 104 to create a similarly slight angle to the one depicted in FIG. 1A. In various embodiments, this angle allows the apparatus 100 to wrap around the user's limb in a comfortable and uniform manner.

As shown in FIG. 1A, the wrapping portion 107 includes an anterior surface 115. FIG. 1B depicts a posterior view of the apparatus 100 including the posterior surface 127 of the wrapping portion 107. In various configurations the anterior surface 115 and the posterior surface 127 are manufactured from different materials and form separate layers. For instance, in some embodiments, the anterior surface 115 is produced from a durable, weather-resistant material. For instance, in some embodiments the anterior surface 115 includes marine vinyl. However, it will be appreciated by those of skill in the art that other materials may be utilized as well. For instance, the anterior surface 115 may include a material comprising one or more of a natural fiber, animal fiber, plant fiber, textile fiber, or synthetic fiber. In some embodiments the anterior surface 115 may include polytetrafluoroethylene (PTFE), expanded PTFE such as GORE-TEX®, leather, nylon, cotton, hemp, wool, carbon fiber, or any other material.

In the same or different configuration, the posterior surface 127 can be made from a variety of materials. In some embodiments, skin-safe materials and moisture wicking materials such as neoprene are advantageous for this application. Since the posterior surface 127 may come into contact with the user's skin, it is desirable that the material be comfortable, and not retain moisture against the user's body.

FIG. 2 presents an illustrated lateral view of the apparatus 100 where the different layers of the anterior and posterior surfaces are visible. Specifically, FIG. 2 depicts the anterior surface of the first pocket 114 and the posterior surface of the first pocket 126. As shown, the anterior surface of the wrapping portion 115 includes a weather resistant material such as marine vinyl, while the posterior surface of the wrapping portion 127 includes a skin-safe, moisture wicking material such as neoprene. Nevertheless, it will be appreciated that materials other than neoprene may be implemented in the posterior surface 127, such as materials comprising one or more of a natural fiber, animal fiber, plant fiber, textile fiber, or synthetic fiber which may include polytetrafluoroethylene (PTFE), expanded PTFE such as GORE-TEX®, leather, nylon, cotton, hemp, wool, carbon fiber, or any other material. As shown in FIG. 2, in certain configurations the wrapping portion 107 can be joined to the first pocket 104 where one or more layers forming the anterior surface 114 of the first pocket 104 are affixed to one or more of the layers forming the anterior 115 or posterior 127 surface of the wrapping portion 107. For example, in the embodiment depicted in FIG. 2 the anterior surface 114 of the first pocket 104 is affixed to layers forming the anterior 115 or posterior 127 surface of the wrapping portion 107.

Second Pocket

In various configurations a second pocket 108 can be implemented along or within the wrapping portion 107. The second pocket 108 can be formed through various techniques, such as by joining at least a portion of the anterior surface 115 of the wrapping portion 107 to at least a portion of the posterior surface 127 of the wrapping portion 107 to form a pocket cavity therebetween, though other methods are also suitable.

In the embodiments illustrated in FIGS. 1A-1C, a second pocket 108 is implemented along the wrapping portion 107. In the illustrated embodiment, the second pocket 108 can be formed by affixing at least a portion of the perimeter of the anterior surface 115 of the wrapping portion 107 to at least a portion of the perimeter of the posterior surface 127 of the wrapping portion 107 to form a pocket cavity therebetween. In the embodiments depicted in FIGS. 1A and 1B, a portion of the perimeter is left unaffixed to yield a second pocket entrance 109 on the anterior surface of the apparatus 100. FIG. 1B depicts the second pocket 108, and the second pocket entrance 109 when the wrapping portion 107 is viewed from the posterior.

In some embodiments, a second pocket 108 may be formed by affixing a layer of material on top of at least a section of the wrapping portion 107. For instance, a layer of material may be affixed along its perimeter to the wrapping portion 107 to form a pocket cavity within the affixed perimeter. Likewise, it will be appreciated that a second pocket 108 may be formed in a similar manner by affixing a layer of material beneath at least a section of the wrapping portion 107 to form a pocket cavity between the wrapping portion 107 and the layer of material. The layer of material may extend across substantially the entire wrapping portion 107 or may be implemented along only a subsection of the wrapping portion 107.

As described herein, the positioning of the second pocket entrance 109 allows objects to be loaded into the second pocket 108 while the device is mounted to a user, and further prevents objects from falling out of the apparatus 100 during use. For example, FIG. 3 depicts an embodiment of the apparatus 100 mounted to a user's forearm 131, and in various configurations where the apparatus 100 is mounted on the forearm of a user 131 who assumes a running posture such that their forearm is generally parallel to the ground, the second pocket entrance 109 can be oriented upwards, against the direction of gravity, preventing the contents of the pocket from spilling out. Furthermore, the second pocket 108 and wrapping portion 107 can be made from a stretchable or resilient material that further facilitate retaining objects within the pocket through the application of tension. For example, in some embodiments the wrap portion 107 and the second pocket 108 are made from a resilient material. In some configurations marine vinyl may be used. In various advantageous configurations, the material can stretch as the apparatus is wrapped around an object, and the resiliency of the object can introduce mechanical tension to keep the contents of the pocket static, prevent jostling during movement, and prevent the contents from falling out during activity.

In some embodiments, the second pocket 108 extends throughout substantially the entire wrapping portion 107. In other embodiments, the second pocket 108 is implemented within a section of wrapping portion 107. For instance, in certain configurations, a second pocket edge 125 is implemented along the wrapping portion. For instance, as pictured in FIG. 1A, a second pocket edge 125 is disposed about 3″ a way from the edge of the wrapping portion 107 opposite the first pocket 104. In the illustrated embodiment, the second pocket edge 125 spans substantially the entire width of the wrapping portion 107 and can be about 6″. In this advantageous configuration the apparatus 100 may be wrapped around the limb of a user and secured thereto regardless of how full the pocket 108 is filled, because the wrapping portion 107 will not deform substantially beyond the second pocket edge 125 when the second pocket 108 is filled with contents. In this manner, a wrap-side retaining mechanism 110 can be implemented without interference from the second pocket 108 or its contents. It will be appreciated by those of skill in the art that the size of the second pocket 108 can be adjusted through the implementation of pocket edges in this manner to yield a variety of shapes and sizes of pocket implemented along the wrapping portion 107.

Wrap-Side Retaining Mechanism

As shown in FIG. 1A, the wrap portion 107 includes a wrap-side retaining mechanism 110. The wrap-side retaining mechanism 110 is configured to interface with the mount-side retaining mechanism 103. Accordingly, in various configurations, the wrap-side retaining mechanism 110 is disposed on the opposite surface of the apparatus 100 as the mount-side retaining mechanism. For instance, as depicted in FIG. 1A, the mount-side retaining 103 mechanism is disposed on the anterior surface of the apparatus, while the wrap-side retaining mechanism 110 is disposed on the posterior surface of the apparatus. In this manner, the wrap-side retaining mechanism 110 may interface with the mount-side retaining mechanism 103 when the apparatus is wrapped around the limb of a user.

As discussed above, in various advantageous implementations, the wrap-side retaining mechanism 110 and the wrap-side retaining mechanism 103 includes hook-and-loop fabric. Hook-and loop fabric is particularly advantageous in this implementation because the wrap-style configuration exerts a prying force generally parallel to the plane on which the mount-side retaining mechanism 103 is bound to the wrap-side retaining mechanism 110, which maximizes the strength of the bond between the hook-and-loop fabric. FIG. 1B depicts a posterior view of the apparatus 100 where the wrap-side retaining mechanism 110 is visibly disposed on the wrapping portion 107. The wrap-side retaining mechanism 110 is configured to interface with the mount-side retaining mechanism 103 in the illustrated embodiment.

In some embodiments, the apparatus can be configured to display branding. For example, in some configurations a logo, name, message, or other form of branding can be affixed to the anterior surface 115 of the wrapping portion 107 of the apparatus 100 such that the branding will be oriented towards the environment and visible when the apparatus 100 is mounted on a user.

Mounting the Apparatus

In various configurations, the apparatus is configured to be mounted to an appendage of a user to provide convenient access to a user's device. In various implementations, the apparatus disclosed herein may also providing a carrying space for a user's personal belongings.

As described herein, the apparatus 100 includes mounting straps 101, 102 forming mounting loops 120, 121 configured for a user to insert an appendage through to mount the apparatus 100 onto a user. The mounting straps 101, 102 are made from a resilient material and can be formed into mounting loops 120, 121 that can expand to allow the user to insert their limb, such as an arm or forearm, through the mounting loops 120, 121 and secure the apparatus to the user through tension. The mounting straps 101, 102 are affixed to a mount-side retaining mechanism 103 configured to interface with a wrap-side retaining mechanism 110 included on the wrapping portion 107 of the apparatus.

To further secure the apparatus to a user, the wrapping portion 107 is configured to wrap around the circumference of the user's appendage and secure the apparatus to the user by facilitating a bond between the wrap-side retaining mechanism 110 and the mount-side retaining mechanism 103. For instance, as described herein, the mount-side retaining mechanism 103 and wrap-side retaining mechanism 110 may utilize hook-and-loop fabric to removably secure the two portions of the apparatus together. In this configuration, the first pocket 104 is positioned between the mount-side retaining mechanism 103 and the wrapping portion 107. In the present implementation, the wrapping portion 107, when wrapped around an appendage of a user, does not extend substantially beyond the mount-side retaining mechanism 103, and therefore does not occlude access to the first pocket 104 or access panel 105 thereon.

FIG. 3 depicts an embodiment of an apparatus prepared in accordance with this disclosure mounted to the forearm of a user 131 with the apparatus 100 shown in a wrapped state. In the depicted configuration, the wrapping portion 107 of the device is wrapped around the user's arm 131 and secured through the use of a hook and loop fabric interface implemented as the wrap side retaining mechanism 110 and mount side retaining mechanism 103. The wrapping portion further includes a second pocket 108. As shown in FIG. 3, when mounted to a user who assumes a running posture, the second pocket entrance 109 can be oriented upwards to prevent the contents of the second pocket 108 from falling out. Furthermore, as can be seen in FIG. 3, a smart device 132 can be housed in the first pocket 104 and activated through the access panel 105 without removing the device 132.

The configuration disclosed herein provides several advantages over traditional device carriers. For instance, the apparatus disclosed herein is simple to manufacture and mount to a user by simply inserting the user's limb through the mounting loops. The resiliency of the mounting loops mitigates the need for additional fastening mechanisms and does not require straps or buckles to constrain the mounting loops around a user which increase manufacturing complexity and can yield loose, dangling ends. Furthermore, in various embodiments the apparatus disclosed herein is configured to wrap around a user's arm which provides additional advantages. For instance, the wrapping configuration increases the surface area with which the device is mounted to the user and avoids the pinching and discomfort caused by devices that mount to a user over a small surface area. In addition, in various configurations the wrapping configuration utilizes hook-and-loop fabric to securely mount the apparatus to a user since the wrapping configuration orients many prying forces around the circumference of the user's arm such that the forces are exerted generally parallel to the plane of fastening which can greatly reduce the risk that the device may fall off during physical activity. The wrapping configuration disclosed herein can provide additional mounting security and comfort allowing a user to store a greater volume and weight of contents in the device than traditional designs. Furthermore, the device provides convenient, secure access to a user's device, such as a cellphone, smart phone, tablet, or other device, without requiring that the device be removed from the pocket. In this manner, the apparatus disclosed herein provides secure, convenient access to a user's device, along with a user's other belongings.

Certain Terminology

Conditional language, such as “can,” “could,” “might,” or “may,” unless specifically stated otherwise, or otherwise understood within the context as used, is generally intended to convey that certain embodiments include, while other embodiments do not include, certain features, elements, and/or steps. Thus, such conditional language is not generally intended to imply that features, elements, and/or steps are in any way required for one or more embodiments or that one or more embodiments necessarily include logic for deciding, with or without user input or prompting, whether these features, elements, and/or steps are included or are to be performed in any particular embodiment.

Conjunctive language such as the phrase “at least one of X, Y, and Z,” unless specifically stated otherwise, is otherwise understood with the context as used in general to convey that an item, term, etc. may be either X, Y, or Z. Thus, such conjunctive language is not generally intended to imply that certain embodiments require the presence of at least one of X, at least one of Y, and at least one of Z.

Unless otherwise explicitly stated, articles such as “a” or “an” should generally be interpreted to include one or more described items. Accordingly, phrases such as “a device configured to” are intended to include one or more recited devices. Such one or more recited devices can also be collectively configured to carry out the stated recitations. For example, “a processor configured to carry out recitations A, B, and C” can include a first processor configured to carry out recitation A working in conjunction with a second processor configured to carry out recitations B and C.

The terms “comprising,” “including,” “having,” and the like are synonymous and are used inclusively, in an open-ended fashion, and do not exclude additional elements, features, acts, operations, and so forth. Likewise, the terms “some,” “certain,” and the like are synonymous and are used in an open-ended fashion. Also, the term “or” is used in its inclusive sense (and not in its exclusive sense) so that when used, for example, to connect a list of elements, the term “or” means one, some, or all of the elements in the list. One skilled in the art will appreciate that the terms affix or secure are used herein to describe coupling various elements of the apparatus to one another. In various configurations those elements may be connected directly, coupled via intervening structure, or the various elements can be formed from a contiguous piece of material.

The terms “approximately,” “about,” and “substantially” as used herein represent an amount close to the stated amount that still performs a desired function or achieves a desired result. For example, in some embodiments, as the context may dictate, the terms “approximately”, “about”, and “substantially” may refer to an amount that is within less than or equal to 10% of the stated amount. The term “generally” as used herein represents a value, amount, or characteristic that predominantly includes, or tends toward, a particular value, amount, or characteristic. As an example, in certain embodiments, as the context may dictate, the term “generally parallel” can refer to something that departs from exactly parallel by less than or equal to 20 degrees and/or the term “generally perpendicular” can refer to something that departs from exactly perpendicular by less than or equal to 20 degrees. Anatomical terms of location as used herein may be understood to reference the device refer to the orientation of the device when mounted on a user. Elastic and elasticity may be understood to refer to a material's ability to resist a deforming influence and return to its original shape and size upon removal of the deforming influence. Unless indicated otherwise, measurements are typically provided in inches. For instance, 7.5″ as used herein may be understood to refer to seven and a half inches. As used herein, exemplary may be understood to refer to serving as an example of a particular embodiment.

Overall, the language of the claims is to be interpreted broadly based on the language employed in the claims. The claims are not to be limited to the non-exclusive embodiments and examples that are illustrated and described in this disclosure, or that are discussed during the prosecution of the application. 

The following is claimed:
 1. A device carrier configured to be mounted to an appendage of a user, the device carrier comprising: a first pocket having an entrance disposed on the anterior surface of the device carrier; and a second pocket having an entrance disposed on the posterior surface of the device carrier.
 2. The device carrier of claim 1, wherein the first pocket includes an access panel disposed on the anterior surface of the device carrier.
 3. The device carrier of claim 1, wherein the access panel includes a transparent covering having a thickness ranging from about 1 mil to about 30 mils.
 4. The device carrier of claim 1, wherein the second pocket is configured to wrap at least partially around the appendage to which the device carrier is mounted.
 5. The device carrier of claim 4, wherein the first pocket entrance is pressed against the user and occluded by the second pocket when the device carrier is mounted to a user.
 6. The device carrier of claim 4, configured to be mounted to the forearm of a user such that the second pocket entrance is oriented substantially vertically when the user assumes a running posture with the user's forearm substantially parallel to the ground.
 7. A device carrier configured to be mounted to an appendage of a user, the device carrier comprising: a first mounting mechanism comprising at least one resilient band configured to wrap around an appendage of a user; and a second mounting mechanism configured to wrap around both the first mounting mechanism and the user's appendage.
 8. The device carrier of claim 7, wherein the first mounting mechanism comprises a first and a second resilient band.
 9. The device carrier of claim 8, wherein the first resilient band is shorter than the second resilient band.
 10. The device carrier of claim 8, wherein the first resilient band forms a first mounting loop and the second resilient band forms a second mounting loop.
 11. The device carrier of claim 10, wherein the first mounting loop has a smaller diameter than the second mounting loop.
 12. The device carrier of claim 8, wherein the first and second resilient bands are joined by a mount side retaining mechanism.
 13. The device carrier of claim 12, wherein the mount side retaining mechanism includes a section of hook and loop fabric spanning between the first and second resilient bands.
 14. The device carrier of claim 7, wherein the second mounting mechanism configured to wrap around both the first mounting mechanism and the user's appendage further comprises a pocket.
 15. The device carrier of claim 14, wherein the pocket entrance is disposed on the anterior of the device.
 16. The device carrier of claim 14, wherein the second mounting mechanism further comprises a wrap side retaining mechanism.
 17. The device carrier of claim 16, wherein the wrap side retaining mechanism includes a section of hook and loop fabric.
 18. The device carrier of claim 17, wherein the wrap side retaining mechanism is configured to interface with a section of hook and loop fabric affixed to the first mounting mechanism comprising the at least one resilient band.
 19. A device carrier configured to be mounted to the forearm of a user, the device carrier comprising: a first pocket having an entrance disposed on the anterior surface of the device carrier; a second pocket having an entrance disposed on the posterior surface of the device carrier; a first mounting mechanism comprising at least two resilient bands configured to loop around an appendage of a user; wherein at least one of the at least two loops has a diameter shorter than at least one other loop; wherein the first mounting mechanism further includes a mount side retaining mechanism; a second mounting mechanism configured to wrap around the first mounting mechanism and the user's appendage; wherein the second mounting mechanism further includes a wrap side retaining mechanism configured to interface with the mount side retaining mechanism to secure the device in a wrapped state around the appendage of the user; and wherein the first pocket entrance is pressed against the user's appendage and occluded by the second pocket when the device is secured to the user in a wrapped state.
 20. The device carrier of claim 19, wherein the second pocket comprises a resilient material that constrains a content within the pocket when the device is mounted to the user in a wrapped state. 